EC:3.4.24.27 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Urogastrone is a potent inhibitor of gastric acid secretion which is present in human urine. Its existence has been known for over 30 years but it has only recently been isolated in a sufficiently pure form for detailed structural studies to be undertaken. Two separate polypeptides beta- and gamma-urogastrone were isolated. The structures were established by carrying out enzymic degradations of S-carboxymethyl and S-carboxamidomethyl derivatives with trypsin, chymotrypsin, thermolysin and a protease derived from the fungus Armillaria mellea. Sequences of the smaller peptides thus obtained were determined by the dansyl Edman method. Partial acid hydrolysis of urogastrone itself gave fragments containing single intact disulphide bonds, and oxidation then allowed the direction of individual bonds to be established. Beta-Urogastrone was shown to be a 53-amino acid residue polypeptide containing three disulphide bonds, and gamma-urogastrone had an identical sequence but lacked the C-terminal arginine residue. Urogastrone was subsequently found to be structurally related to mouse epidermal growth factor in that 37 of the 53 residues were commonly located in each polypeptide. Furthermore, as both peptides has similar effects upon gastric acid secretion and upon epidermal growth, urogastrone was also a human epidermal growth factor. The 16 variable residues were spread across the molecule, all apart from two were compatible with single base changes in the triplet condons, and the overall effect was to make uorgastrone more acidic than EGF. The smallest biologically active unit has not been defined but at least six residues can be removed from the C-terminus without causing a reduction in potency.
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PMID:The primary structure of human urogastrone. 30 79

C1s, one of the three subcomponents of C1, the first component of the complement system, is a complex serine protease. To determine the disulfide-bonding pattern, fragments of C1s were generated by cleavage with pepsin, thermolysin, or subtilisin. Disulfide bonds have been identified by several methods, for example, direct observation of the phenylthiohydantoin derivative of cystine during Edman degradation of isolated peptides and placement in the known cDNA sequence. All of the 26 half-cystines are linked in disulfide bonds occurring at positions 50-68, 120-132, 128-141, 143-156, 160-187, 219-236, 279-326, 306-339, 344-388, 371-406, 410-534, 580-603, and 613-644. All of the disulfide bonds of the earlier described substructures of C1s, the EGF-homologous part, the two SCR units, and the two domains typical for C1s and C1r are localized within these domains.
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PMID:Identification of the disulfide bonds of human complement C1s. 200 22

Four different forms of human epidermal growth factor (h-EGF) are found in the culture medium of a recombinant strain of Saccharomyces cerevisiae. These forms were characterized after purification using reverse-phase high-performance liquid chromatography. The most abundant form of secreted recombinant h-EGF has leucine at the carboxyl terminus and is identical with gamma-urogastrone. A second species is identical with the most abundant form except that it lacks the carboxyl-terminal leucine. This form appears to be the product of a carboxypeptidase found in the growth medium. The other two forms of recombinant h-EGF are the respective oxidation products of the above where the single methionine residue has been converted to methionine sulfoxide. These four forms of recombinant h-EGF are fully active; they bind to the EGF receptor of A431 cells as well as stimulate mitotic activity of human foreskin fibroblasts with equal specific activity. The location of the disulfide bonds in the predominant form of recombinant h-EGF was determined following digestion with thermolysin. The amino acid compositions of the resulting peptides showed that the placement of disulfide bonds in recombinant h-EGF is identical with that in murine EGF.
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PMID:Characterization of recombinant human epidermal growth factor produced in yeast. 328 26

The domain structure and the stability against thermal and chemical denaturation of urokinase-type plasminogen activator (u-PA) have been investigated by NMR spectroscopy and differential scanning calorimetry (DSC). At least five structurally autonomous regions of this three-domain protein have been found to exist. Two of these are the EGF-like and the kringle domains; the others are all within the third domain, which is a serine protease. The latter undergoes three unfolding transitions in its enzymatically active form. Reaction with a specific affinity label (L-Glu-L-Gly-L-Arg-chloromethyl ketone) to produce an inactivated protein results in a stabilization of the structure involved in two of these transitions, and an increase in cooperativity to give a domain which unfolds in two, not three, distinct steps. These are attributed to the denaturation of the two major subdomains of the protease structure. One of the subdomains has exceptional stability, being unfolded only under extreme conditions such as 75 degrees C at pH 2.5 or 4 M GuDCl at pH 4.5 and 29 degrees C. This region has been identified by isolation and characterization of a fragment (residues Ile-159 to Thr-277) obtained by limited proteolysis with thermolysin under conditions where the protease domain was partly unfolded. The NMR data are consistent with this stable region being at the N-terminus of the protein and indicate that its structure and stability are similar to those of the corresponding region of the native protein. These results support the idea that the u-PA protease domain has structural resemblance to the digestive serine proteases, but that stabilizing interactions within the structure can differ significantly between a group of homologous proteins.
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PMID:Unfolding studies of the protease domain of urokinase-type plasminogen activator: the existence of partly folded states and stable subdomains. 813 Feb 9